CN108466492B - Code printing process method and code printing jig assembly - Google Patents

Abstract

The invention relates to the technical field of laser coding, in particular to a coding process method and a coding jig assembly. The coding process method comprises the following steps: the guiding jig is arranged between the product accommodating box and the coding jig, and forms a coding jig assembly; wherein at least one product to be processed is placed in the product containing box; the product to be processed in the product accommodating box slides into a preset position in the coding jig through the guide jig; and printing codes on the products to be processed in the code printing jig. This beat sign indicating number tool subassembly includes that the product that connects gradually along first direction holds box, direction tool and beats the sign indicating number tool. The invention aims to provide a coding process method and a coding jig assembly, and solves the technical problems that in the prior art, coding needs to occupy a large amount of labor force and the working efficiency is low.

Description

Code printing process method and code printing jig assembly

Technical Field

The invention relates to the technical field of laser coding, in particular to a coding process method and a coding jig assembly.

Background

Coding is widely used in various industrial productions. Some customers mark lens codes on Rcm (i.e., rear camera) camera ferrules by laser coding processes to differentiate suppliers. In the prior art, 1 piece of camera metal ring is manually loaded into a coding jig from a product containing box by an operator (wherein the product containing box is provided with a plurality of containing bins or placing columns, and each containing bin or placing column is used for placing one camera metal ring), and coding is carried out to mark a lens code after the camera metal ring is positioned; after the code printing is finished, 1 piece of camera metal ring is taken out from the code printing jig and placed into the product accommodating box manually by an operator. The coding process occupies a large amount of labor and has low working efficiency.

Disclosure of Invention

The invention aims to provide a coding process method to solve the technical problems that in the prior art, coding needs to occupy a large amount of labor force and work efficiency is low.

The invention also aims to provide a coding jig assembly to solve the technical problems that a large amount of labor is required to be occupied for coding and the working efficiency is low in the prior art.

Based on the first purpose, the coding process method provided by the invention comprises the following steps:

the guiding jig is arranged between the product accommodating box and the coding jig, and forms a coding jig assembly; wherein at least one product to be processed is placed in the product containing box;

the product to be processed in the product accommodating box slides into a preset position in the coding jig through the guide jig;

and printing codes on the products to be processed in the code printing jig.

Further, the step "the product of treating in the product containing box passes through the direction tool slides into beat the preset position in the sign indicating number tool" and include:

and overturning the coding jig assembly so that the product to be processed slides into the coding jig from the product containing box through the guide jig.

Further, after the step of coding the product to be processed in the coding jig is executed, the method also comprises the following steps:

the coding jig, the guide jig and the product accommodating box are sequentially connected to form a coding jig assembly;

and overturning the coding jig assembly so that the processed product slides into the product accommodating box from the coding jig through the guide jig.

Further, before executing the step of "printing codes on the product to be processed in the printing jig", the method comprises the following steps: and positioning the product to be processed in the coding jig.

And further, positioning the product to be processed in the coding jig by adopting a positioning bottom plate.

Based on the second purpose, the coding jig assembly provided by the invention comprises a product accommodating box, a guide jig and a coding jig which are sequentially connected along a first direction;

along the first direction, the guide jig comprises a first surface and a second surface which correspond to each other; the first surface of the guide jig is connected with the product accommodating box, and the second surface of the guide jig is connected with the coding jig;

the guide jig is provided with at least one guide groove; the guide groove extends along the first direction, and two ends of the guide groove are opened; the area of the notch of the guide groove on the first surface is larger than that of the notch of the guide groove on the second surface; the groove walls of the guide grooves are in smooth transition connection;

the guide groove corresponds to the accommodating bin or the placing column of the product accommodating box; the accommodating bin or the placing column of the product accommodating box is used for fixing a product to be processed;

the guide groove corresponds to the accommodating groove of the coding jig.

Furthermore, the guide groove comprises a first groove wall, a second groove wall, a third groove wall and a fourth groove wall which are connected in a surrounding manner, and the second groove wall corresponds to the fourth groove wall; the first groove wall, the second groove wall and the third groove wall are all plane and are all parallel to the first direction;

the fourth groove wall is a curved surface and is bent towards the second groove wall.

Further, the side wall of the accommodating bin of the product accommodating box corresponding to the second groove wall of the guide groove is a second product accommodating side wall, and the side wall of the accommodating bin of the product accommodating box corresponding to the fourth groove wall of the guide groove is a fourth product accommodating side wall;

on the first surface of the guide jig, the fourth product accommodating side wall is disposed between the second groove wall and the fourth groove wall, and the second groove wall is disposed between the second product accommodating side wall and the fourth product accommodating side wall.

Further, the product containing box comprises at least one product containing area, and correspondingly, the guide jig comprises at least one groove array area; each groove array area is provided with a plurality of guide grooves distributed in an array mode.

Further, the guide grooves of the guide jig are respectively rounded on the first surface and the second surface;

the first surface of the guide jig is provided with a positioning structure connected with the product accommodating box;

and the second surface of the guide jig is provided with a positioning structure connected with the coding jig.

The coding process method provided by the invention forms a coding jig assembly through the product accommodating box, the guide jig and the coding jig, and enables a product to be processed to slide into the coding jig from the product accommodating box through the guide jig, so that a camera metal ring in the product accommodating box waits for all the processed products to slide into the coding jig, and then coding is carried out; compared with the traditional method that 1 piece of camera metal ring is manually placed into the coding jig from the product accommodating box after waiting for processing products, the method can simplify manpower and optimize the flow, improves the coding work efficiency, reduces the labor input, improves the production efficiency to a certain extent, reduces the production cost and improves the enterprise competitiveness.

The code printing jig assembly provided by the invention can simplify manpower and optimize flow, improve the code printing working efficiency, reduce the labor input, improve the production efficiency to a certain extent, reduce the production cost and improve the enterprise competitiveness.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view showing a structure of a conventional product accommodating case;

fig. 2 is a schematic structural diagram of a conventional coding jig (provided with a product to be processed);

fig. 3 is another schematic angle structure diagram of a conventional coding jig (provided with a product to be processed);

fig. 4 is a schematic structural diagram of a coding jig assembly according to a second embodiment of the present invention;

fig. 5 is an enlarged schematic view of a region a of the coding jig assembly shown in fig. 4.

Icon: 1' -a product containing box; 3' -coding jig; 4' -a product to be processed; 1-a product containing box; 11-a holding bin; 112-a second product containing sidewall; 114-a fourth product containing sidewall; 2, guiding a jig; 21-a guide groove; 212-a second slot wall; 214-fourth slot wall; 3-coding the jig; 4-products to be processed.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

The coding process method (hereinafter referred to as the method) provided by the embodiment includes the following steps:

the guiding jig is arranged between the product accommodating box and the coding jig, and forms a coding jig assembly; wherein at least one product to be processed is placed in the product containing box; that is, set gradually the direction tool and beat the sign indicating number tool on placing the product that remains the processing product and holding the box, form and beat sign indicating number tool subassembly. Optionally, a plurality of products to be processed are placed in the product accommodating box; further, a plurality of products to be processed are arranged in a matrix.

And the product to be processed in the product containing box slides into a preset position in the coding jig through the guide jig. The product to be processed is followed the product holds the box internal slip and falls into beat the preset position in the sign indicating number tool, can pass through the upset beat sign indicating number tool subassembly and realize, also can realize through other modes. Preferably, the coding jig assembly is turned over, so that the product to be processed slides into the coding jig from the product containing box through the guide jig. Optionally, the angle of the overturning coding jig assembly is 180 degrees, and the overturning angle of the product to be processed, which slides into the coding jig from the product containing box through the guide jig, is not more than 130 degrees; preferably, the product to be processed slides into the coding jig from the product containing box through the guide jig, and the turning angle is not more than 90 degrees; that is, beat sign indicating number tool subassembly in the upset in-process and not overturn yet to 180 when, wait to process the product and hold the box from the product and break away from through self action of gravity to in the sign indicating number tool is beaten in the landing of direction tool.

And printing codes on the products to be processed in the code printing jig.

According to the coding process method in the embodiment, a coding jig assembly is formed by the product accommodating box, the guide jig and the coding jig, a product to be processed slides into the coding jig from the product accommodating box through the guide jig, so that a camera metal ring in the product accommodating box waits for all the processed products to slide into the coding jig, and then coding is carried out; compared with the traditional method that 1 piece of camera metal ring is manually placed into the coding jig from the product accommodating box after waiting for processing products, the method can simplify manpower and optimize the flow, improves the coding work efficiency, reduces the labor input, improves the production efficiency to a certain extent, reduces the production cost and improves the enterprise competitiveness.

In an alternative of this embodiment, the coding process further includes the following steps:

after the processed product is coded, the coding jig, the guide jig and the product accommodating box are sequentially connected to form the coding jig assembly.

And overturning the coding jig assembly so that the processed product slides into the product accommodating box from the coding jig through the guide jig. Beat sign indicating number tool subassembly through overturning once more to make the product of accomplishing processing hold in the box through direction tool landing income product from beating the sign indicating number tool, in order to avoid the tradition to take out 1 piece of camera becket head from beating the sign indicating number tool and put into the product and hold the box, in order to further improve the work efficiency of beating the sign indicating number and reduced labour's input, in order to further improve production efficiency, reduction in production cost, promote enterprise competitiveness. Optionally, the angle of the overturning coding jig assembly is 180 degrees, and the overturning angle of the product to be processed, which slides into the product accommodating box from the coding jig through the guide jig, is not more than 130 degrees; preferably, the product to be processed slides into the product accommodating box from the coding jig through the guide jig, and the turning angle is not more than 90 degrees; that is, beat sign indicating number tool subassembly in the upset in-process and not overturn yet to 180 when, wait to process the product and break away from in beating the sign indicating number tool through self action of gravity to in the direction tool landing to product holds the box.

In the alternative of this embodiment, in order to improve the code printing precision that the camera becket waited for the processing product, it is right before the product to be processed in the code printing jig is printed the code, it is earlier right the product to be processed in the code printing jig is positioned.

Optionally, a positioning bottom plate is used for positioning the product to be processed in the coding jig. Optionally, the positioning bottom plate is a flat plate, and a product to be processed, which protrudes out of the coding jig, is positioned in a corresponding groove of the coding jig through the flat plate. For example, in the prior art, a part of the camera metal ring protrudes out of the surface of the coding jig, and after being pressed by the positioning bottom plate, the position accuracy of each camera metal ring in the corresponding groove of the coding jig is improved.

Example two

The second embodiment provides a coding jig assembly, which is suitable for the coding process method described in the first embodiment, the technical features of the coding process method disclosed in the first embodiment are also suitable for the second embodiment, and the technical features of the coding process method disclosed in the first embodiment are not described repeatedly.

Referring to fig. 4 and 5, the present embodiment provides a coding jig assembly; fig. 4 is a schematic structural diagram of a coding jig assembly provided in this embodiment; fig. 5 is an enlarged schematic view of a region a of the coding jig assembly shown in fig. 4. Fig. 4 and 5 are cross-sectional views, and neither cross-sectional view is shown for the sake of clarity of the structure.

Referring to fig. 4 and 5, the coding jig assembly provided in this embodiment is suitable for the coding process method described in the first embodiment, and includes a product accommodating box 1, a guiding jig 2, and a coding jig 3, which are sequentially connected along a first direction; the first direction is, for example, a thickness direction of the guide jig 2.

Along the first direction, the guide jig 2 comprises a first surface and a second surface which correspond to each other; the first surface of the guide jig 2 is connected with the product accommodating box 1, and the second surface of the guide jig 2 is connected with the coding jig 3;

the guide jig 2 is provided with at least one guide groove 21; the guide groove 21 extends in the first direction and has both ends opened; the area of the notch of the guide groove 21 on the first surface is larger than that of the notch of the guide groove 21 on the second surface; the groove walls of the guide grooves 21 are in smooth transition connection; the groove walls of the guide grooves 21 are in smooth transition connection, so that the sliding resistance of the product 4 to be processed when the coding jig assembly is turned over is reduced.

The guide groove 21 corresponds to the accommodating bin or the mounting column of the product accommodating box 1; the accommodating bin or the placing column of the product accommodating box 1 is used for fixing a product 4 to be processed; alternatively, the number of the guide grooves 21 corresponds to the number of the accommodating compartments or the mounting posts of the product accommodating box 1, and the number of the guide grooves 21 is not lower than the number of the accommodating compartments or the mounting posts of the product accommodating box 1. Alternatively, the number of the guide grooves 21 is the same as the number of the accommodating compartments or the mounting posts of the product accommodating box 1. Alternatively, the distribution of the guide grooves 21 corresponds to the distribution of the housing bins or mounting posts of the product housing box 1. That is, the plurality of accommodating compartments or the plurality of mounting posts of the product accommodating box 1 are arranged in an array, and the guide grooves 21 are also arranged in a corresponding array.

The guide groove 21 corresponds to the accommodating groove of the coding jig 3.

Optionally, the coding jig assembly is arranged such that the to-be-processed product 4 located in the product accommodating box 1 is perpendicular or approximately perpendicular to the first direction, the to-be-processed product 4 located in the coding jig 3 is parallel to the first direction, or an included angle between the to-be-processed product 4 located in the coding jig 3 and the first direction is an acute angle; it can also be understood that the product 4 to be processed is in a flat state in the product accommodating box 1, and is in a vertical state or an inclined state in the coding jig 3. The area through guide way 21 at the notch of first surface is greater than the area of guide way 21 at the notch of second surface to in camera becket wait to process product 4 when beating sign indicating number tool subassembly upset, hold the state upset of keeping flat in the box 1 by the product and turn to the vertical state of placing or the slope state of placing in beating sign indicating number tool 3, perhaps, hold the state of keeping flat in the box 1 for the product by the vertical state of placing or the slope state of placing in beating sign indicating number tool 3 upset.

In the coding jig assembly in the embodiment, the coding jig assembly is formed by the product accommodating box 1, the guide jig 2 and the coding jig 3, and the product 4 to be processed slides into the coding jig 3 from the product accommodating box 1 through the guide jig 2, so that the camera metal ring in the product accommodating box 1 waits for the processed product 4 to completely slide into the coding jig 3, and then coding is performed; compared with the traditional method that 1 piece of camera metal ring is manually arranged to wait for a processed product 4 to be loaded into the code printing jig 3 from the product accommodating box 1, the method can simplify manpower and optimize the flow, improve the code printing work efficiency, reduce the labor input, improve the production efficiency to a certain extent, reduce the production cost and improve the enterprise competitiveness.

The coding jig assembly in the embodiment has the advantages of the coding process method in the embodiment one, and other advantages of the coding process method disclosed in the embodiment one are not described repeatedly herein.

The product housing box 1 of the present embodiment can employ an existing product housing box 1', as shown in fig. 1; the existing product accommodating box 1 'is a plastic uptake box and is provided with a plurality of placing columns for placing and positioning camera metal rings to wait for processing products, the placing columns are arranged in a matrix mode, one camera metal ring is sleeved outside each placing column to wait for processing the products, and the camera metal rings wait for the processing products to be horizontally placed in the product accommodating box 1'; through adopting current product to hold box 1' to reduce the cost of beating sign indicating number tool subassembly. It will be understood by those skilled in the art that the product housing box 1 of the present embodiment may be a specially-made product housing box.

The coding jig 3 of the present embodiment can adopt the existing coding jig 3', as shown in fig. 2 and 3; the camera metal ring waits for the processed product 4 'to be vertically placed or obliquely placed on the existing coding jig 3', and the processed product 4 'protrudes out of the coding jig 3'. By adopting the existing coding jig 3', the cost of the coding jig component is reduced. Those skilled in the art will understand that the coding jig 3 of the present embodiment may be a specially-made coding jig.

In an alternative of this embodiment, the guide groove 21 includes a first groove wall, a second groove wall 212, a third groove wall and a fourth groove wall 214 that are connected in a surrounding manner, the first groove wall corresponds to the third groove wall, and the second groove wall 212 corresponds to the fourth groove wall 214; the first, second and third slot walls are all planar and all parallel to the first direction;

fourth slot wall 214 is curved and fourth slot wall 214 curves toward second slot wall 212. The sliding resistance of the product 4 to be processed when the coding jig assembly is turned over is reduced by the fourth groove wall 214 bent toward the second groove wall 212.

Further, the side wall of the accommodating chamber 11 of the product accommodating box 1 corresponding to the first groove wall of the guide groove 21 is a first product accommodating side wall, the side wall of the accommodating chamber 11 of the product accommodating box 1 corresponding to the second groove wall 212 of the guide groove 21 is a second product accommodating side wall 112, the side wall of the accommodating chamber 11 of the product accommodating box 1 corresponding to the third groove wall of the guide groove 21 is a third product accommodating side wall, and the side wall of the accommodating chamber 11 of the product accommodating box 1 corresponding to the fourth groove wall 214 of the guide groove 21 is a fourth product accommodating side wall 114.

On the first surface of the guiding jig 2, the fourth product accommodating sidewall 114 is disposed between the second and fourth groove walls 212 and 214, and the second groove wall 212 is disposed between the second and fourth product accommodating sidewalls 112 and 114. Adopt such design to in the upset reduce the sliding resistance of waiting to process product 4 when beating sign indicating number tool subassembly, so that wait to process product 4 better hold the box 1 internal slipping from the product and fall into the preset position of beating sign indicating number tool 3, perhaps hold the box 1 internal slipping through direction tool 2 from beating sign indicating number tool 3 internal slipping into the product.

In an alternative of this embodiment, the product containing box 1 comprises at least one product containing zone, and correspondingly, the guiding jig 2 comprises at least one groove array zone; each product containing area is provided with a plurality of containing bins 11 or a plurality of placing columns, and correspondingly, each groove array area is provided with a plurality of guide grooves 21. Optionally, each product containing area is provided with a plurality of containing bins 11 or a plurality of receiving columns distributed in an array, and correspondingly, each slot array area is provided with a plurality of guide slots 21 distributed in an array. The number of product containing areas and cell matrix areas may be, for example, 2, 4, 6, 10, etc. Through the product containing area and the groove array area, the guide jig 2 is better matched and connected with the product containing box 1.

In an alternative of this embodiment, the guide grooves 21 of the guide jig 2 are rounded at the first surface and the second surface, respectively; so as to reduce the sliding resistance of the product 4 to be processed when the code printing jig component is turned over.

A positioning structure connected with the product accommodating box 1 is arranged on the first surface of the guide jig 2, and a positioning structure connected with the coding jig 3 is arranged on the second surface of the guide jig 2; with the assembly precision that the improvement product holds the sign indicating number tool subassembly of beating that box 1, direction tool 2 and beat sign indicating number tool 3 formed, and then the improvement product holds the camera becket in the box 1 and waits for the whole landing of processing product 4 to go into the precision of beating in the sign indicating number tool 3.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. A coding process method is characterized by comprising the following steps:

the guiding jig is arranged between the product accommodating box and the coding jig, and forms a coding jig assembly; wherein at least one product to be processed is placed in the product containing box;

the product to be processed in the product accommodating box slides into a preset position in the coding jig through the guide jig;

coding the product to be processed in the coding jig;

the step "the product of treating in the product containing box passes through the direction tool slides into beat the preset position in the sign indicating number tool" and include:

and overturning the coding jig assembly so that the product to be processed slides into the coding jig from the product containing box through the guide jig.

2. The coding process method according to claim 1, wherein after the step of coding the product to be processed in the coding jig is executed, the coding process method further comprises the following steps:

the coding jig, the guide jig and the product accommodating box are sequentially connected to form a coding jig assembly;

and overturning the coding jig assembly so that the processed product slides into the product accommodating box from the coding jig through the guide jig.

3. The coding process method according to claim 1, wherein before the step of coding the product to be processed in the coding jig, the coding process method comprises the following steps: and positioning the product to be processed in the coding jig.

4. The coding process method according to claim 3, wherein a positioning bottom plate is used for positioning a product to be processed in the coding jig.

5. A coding jig assembly suitable for the coding process method according to any one of claims 1 to 4, which comprises a product accommodating box, a guiding jig and a coding jig which are connected in sequence along a first direction;

along the first direction, the guide jig comprises a first surface and a second surface which correspond to each other; the first surface of the guide jig is connected with the product accommodating box, and the second surface of the guide jig is connected with the coding jig;

the guide jig is provided with at least one guide groove; the guide groove extends along the first direction, and two ends of the guide groove are opened; the area of the notch of the guide groove on the first surface is larger than that of the notch of the guide groove on the second surface; the groove walls of the guide grooves are in smooth transition connection;

the guide groove corresponds to the accommodating bin or the placing column of the product accommodating box; the accommodating bin or the placing column of the product accommodating box is used for fixing a product to be processed;

the guide groove corresponds to the accommodating groove of the coding jig.

6. The coding jig assembly of claim 5, wherein the guide groove comprises a first groove wall, a second groove wall, a third groove wall and a fourth groove wall which are connected in a surrounding manner, and the second groove wall corresponds to the fourth groove wall; the first groove wall, the second groove wall and the third groove wall are all plane and are all parallel to the first direction;

the fourth groove wall is a curved surface and is bent towards the second groove wall.

7. The coding jig assembly of claim 6, wherein the side wall of the accommodating compartment of the product accommodating box corresponding to the second slot wall of the guide slot is a second product accommodating side wall, and the side wall of the accommodating compartment of the product accommodating box corresponding to the fourth slot wall of the guide slot is a fourth product accommodating side wall;

on the first surface of the guide jig, the fourth product accommodating side wall is disposed between the second groove wall and the fourth groove wall, and the second groove wall is disposed between the second product accommodating side wall and the fourth product accommodating side wall.

8. The coding jig assembly of claim 5, wherein the product containing box comprises at least one product containing area, and correspondingly, the guide jig comprises at least one channel array area; each groove array area is provided with a plurality of guide grooves distributed in an array mode.

9. The coding jig assembly according to claim 5, wherein the guide grooves of the guide jig are rounded at the first surface and the second surface, respectively;

the first surface of the guide jig is provided with a positioning structure connected with the product accommodating box;

and the second surface of the guide jig is provided with a positioning structure connected with the coding jig.

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